生态环境学报
生態環境學報
생태배경학보
ECOLOGY AND ENVIRONMENT
2013年
11期
1830-1836
,共7页
李金娟%张雪霞%王平%高云%陈能场%冷小艳
李金娟%張雪霞%王平%高雲%陳能場%冷小豔
리금연%장설하%왕평%고운%진능장%랭소염
酸性矿山废水%土壤酶活%水稻品种%根际
痠性礦山廢水%土壤酶活%水稻品種%根際
산성광산폐수%토양매활%수도품충%근제
acid mine drainage%soil enzyme%rice varieties%rhizosphere
选取酸性矿山废水污灌形成的多重金属污染水稻土,采用多格层根际箱模拟水稻根际环境,研究高镉积累水稻长香谷(Oryza sativa L. cv. Choukoukoku)和低镉积累水稻金农丝苗(Oryza sativa L. cv. Jinnongsimiao)2个品种水稻生育中后期(分蘖期、孕穗期、扬花期、蜡熟期)根际土壤脲酶、酸性磷酸酶和过氧化氢酶活性的变化特征。结果表明:高镉积累水稻比低镉积累水稻各时期根际土壤脲酶活性低,随着生育期的延长,2个品种水稻土壤脲酶活性先降低后升高(分蘖期酶活性最高),2种水稻土壤脲酶活性均在根际S0层达到最高,但其他各层土壤脲酶活性与根系距离无显著关系。随着水稻生育期的延长,高镉积累水稻根际土壤酸性磷酸酶活性先升高(在孕穗期酶活性达最高),随后降低;低镉积累水稻土壤酸性磷酸酶活性则在分蘖期最高,之后逐渐降低。除分蘖期高镉积累水稻土壤酸性磷酸酶活性低于低镉积累水稻酶活性外,其他2个时期前者酸性磷酸酶酶活性均高于后者的酶活。2个品种水稻土壤过氧化氢酶活性随生育期延长不断升高,在整个生育后期,高镉吸收水稻比低镉吸收水稻各时期土壤过氧化氢酶活性高,但在蜡熟期时两者无显著差异;在各时期2种水稻过氧化氢酶活性在根系S0层达到最大,随着与水稻根系距离的增加呈先降低后增加的趋势。可见,在多重金属污染矿区,土壤酶活性明显受水稻品种、水稻生长时期和水稻根系的影响。该结果可以为研究多重金属污染矿区分析土壤酶活性与不同重金属积累程度的水稻品种作物相关关系提供数据支持,给农业生产及土壤修复提供依据。
選取痠性礦山廢水汙灌形成的多重金屬汙染水稻土,採用多格層根際箱模擬水稻根際環境,研究高鎘積纍水稻長香穀(Oryza sativa L. cv. Choukoukoku)和低鎘積纍水稻金農絲苗(Oryza sativa L. cv. Jinnongsimiao)2箇品種水稻生育中後期(分蘗期、孕穗期、颺花期、蠟熟期)根際土壤脲酶、痠性燐痠酶和過氧化氫酶活性的變化特徵。結果錶明:高鎘積纍水稻比低鎘積纍水稻各時期根際土壤脲酶活性低,隨著生育期的延長,2箇品種水稻土壤脲酶活性先降低後升高(分蘗期酶活性最高),2種水稻土壤脲酶活性均在根際S0層達到最高,但其他各層土壤脲酶活性與根繫距離無顯著關繫。隨著水稻生育期的延長,高鎘積纍水稻根際土壤痠性燐痠酶活性先升高(在孕穗期酶活性達最高),隨後降低;低鎘積纍水稻土壤痠性燐痠酶活性則在分蘗期最高,之後逐漸降低。除分蘗期高鎘積纍水稻土壤痠性燐痠酶活性低于低鎘積纍水稻酶活性外,其他2箇時期前者痠性燐痠酶酶活性均高于後者的酶活。2箇品種水稻土壤過氧化氫酶活性隨生育期延長不斷升高,在整箇生育後期,高鎘吸收水稻比低鎘吸收水稻各時期土壤過氧化氫酶活性高,但在蠟熟期時兩者無顯著差異;在各時期2種水稻過氧化氫酶活性在根繫S0層達到最大,隨著與水稻根繫距離的增加呈先降低後增加的趨勢。可見,在多重金屬汙染礦區,土壤酶活性明顯受水稻品種、水稻生長時期和水稻根繫的影響。該結果可以為研究多重金屬汙染礦區分析土壤酶活性與不同重金屬積纍程度的水稻品種作物相關關繫提供數據支持,給農業生產及土壤脩複提供依據。
선취산성광산폐수오관형성적다중금속오염수도토,채용다격층근제상모의수도근제배경,연구고력적루수도장향곡(Oryza sativa L. cv. Choukoukoku)화저력적루수도금농사묘(Oryza sativa L. cv. Jinnongsimiao)2개품충수도생육중후기(분얼기、잉수기、양화기、사숙기)근제토양뇨매、산성린산매화과양화경매활성적변화특정。결과표명:고력적루수도비저력적루수도각시기근제토양뇨매활성저,수착생육기적연장,2개품충수도토양뇨매활성선강저후승고(분얼기매활성최고),2충수도토양뇨매활성균재근제S0층체도최고,단기타각층토양뇨매활성여근계거리무현저관계。수착수도생육기적연장,고력적루수도근제토양산성린산매활성선승고(재잉수기매활성체최고),수후강저;저력적루수도토양산성린산매활성칙재분얼기최고,지후축점강저。제분얼기고력적루수도토양산성린산매활성저우저력적루수도매활성외,기타2개시기전자산성린산매매활성균고우후자적매활。2개품충수도토양과양화경매활성수생육기연장불단승고,재정개생육후기,고력흡수수도비저력흡수수도각시기토양과양화경매활성고,단재사숙기시량자무현저차이;재각시기2충수도과양화경매활성재근계S0층체도최대,수착여수도근계거리적증가정선강저후증가적추세。가견,재다중금속오염광구,토양매활성명현수수도품충、수도생장시기화수도근계적영향。해결과가이위연구다중금속오염광구분석토양매활성여불동중금속적루정도적수도품충작물상관관계제공수거지지,급농업생산급토양수복제공의거。
To compare the difference of soil biological characteristics between rice Oryza sativa L. cv. Choukoukoku (OSC) and Oryza sativa L. cv. Jinnongsimiao(OSJ) that has a high and low absorption capacity of cadmium, respectively, the changes of urease, acid phosphatase and hydrogen peroxidase activities in rhizosphere soil of two rice varieties at four growth stages (tillering stage, booting stage, flowering stage and milk ripe stage) were investigated by using multiple lattice layer rhizobox system. The soil samples were taken from the multi-metal contaminated paddy soils due to the irrigation of acid mine drainage for more than 40 years. The results showed that the urease activity of OSC was lower than that of OSJ in the whole growth period. The highest urease activity in rhizosphere soil of two rice varieties was at tillering stage and in the root compartment (S0), then decreased with plant growth to reach the minimum at booting stage and increased thereafter till milk ripe stage. The soil urease activity of two rice varieties had no significant relationship with root distance in root compartments (S1, S2, S3, S4, S5, B). The soil acid phosphatase activity of OSC increased with plant growth and was highest at booting stage and decreased till milk ripe stage, however, the soil acid phosphatase activity of OSJ reached the maximum at tillering stage and then decreased gradually. The acid phosphatase activity of OSC was higher than that of OSJ at flowering stage and milk ripe stage except tillering stage. The soil hydrogen peroxidase activity of two rice varieties increased with plant growth and the soil hydrogen peroxidase activity of OSC was higher than that of OSJ throughout the period except milk ripe stage. In addition, the soil hydrogen peroxidase activity of two rice varieties was higher in root compartments (S0 and B) than in middle root compartments (S1, S2, S3, S4, S5), which was highest in root compartment (S0). Our results indicated that enzyme activities of rhizophere soil were remarkably affected by rice varieties, rice growth period and rice root system in multi-metal contaminated mining area. The results provide not only basic data for analyzing the correlationship between soil enzymes in multi-metal contaminated mining area and rice varieties that have different heavy metal accumulating abilities, but also evidence for agricultural production and soil restoration.